CN2509491Y - Humidity regulator and humidity regulator used in localized space - Google Patents

Abstract

The utility model provides a humidity regulating device which has easy mounting and can continuously produce stable humidity regulating capability, having a first humidity regulating path that blows the absorbed air from the room inside, a second humidity regulating path that blows the air absorbed from the room outside; an air supply mechanism that makes the air in the humidity regulating paths flow; and an absorbing rotor 3 which transfers humidity from air flowing over the first humidity regulating path to the air flowing over the second humidity regulating path, wherein, the second humidity regulating path is internally provided with a heating mechanism 4 at the upstream side of the absorbing rotor 3. The utility model can continuously perform humidity absorbing rotation and rebirth rotation of the absorbing rotor, the humidity absorbing rotation takes the absorbing rotor 3 to absorb the humidity in the indoor air and supplies the dehumidified air to the room inside; and the rebirth rotation of the absorbing rotor absorbs the humidity of the absorbing rotor by use of indoor air and discharges the humidity out of the room.

Description

The humidity control device that humidity control device and local space are used

Technical field

The utility model relates to the humidity control device of actions such as a kind of running that can dehumidify, ventilation running and the humidity control device that local space is used.

Background technology

Fig. 4 is the cross-sectional side view (in fact open clear 56-28731 number) of expression as the wall-hanging dehumidifier general configuration of former humidity control device.This dehumidifier is mounted to a side of the housing 30 that roughly is square is embedded to 43 li of outer walls, the dehumidifying that is formed for sucking room air in the lower portion of the front face side of this housing 30 is with suction inlet 31, and the dehumidifying that is formed for discharging the adjusting air that has been dehumidified in the top side of housing 30 is with blow-off outlet 32.Above-mentioned dehumidifying in above-mentioned housing 30 is also being disposed dividing plate 35 with the position above the suction inlet 31, and is roughly parallel with the bottom surface, will be partitioned into 2 spaces 36,37 up and down in the housing 30 thus.The rear side of above-mentioned housing 30, on the position of the above-below direction of aforementioned barriers 35, also form respectively with the outdoor regeneration that communicates with blow-off outlet 34 and regeneration usefulness suction inlet 33.And, also being provided with the 1st controllable register 38 for 36 li in the upside space of above-mentioned housing 30, this baffle plate can make above-mentioned regeneration open, the opposing party is closed such switching with in the blow-off outlet 32 either party with blow-off outlet 34 and dehumidifying; Also be provided with the 2nd controllable register 39 37 li of above-mentioned lower side space, be used to make regeneration suction inlet 33 switches.Front face side in above-mentioned lower side space 37 is disposing fan 40, the air suction inlet 40a of this fan is adjacent to configuration with dehumidifying with suction inlet 31 sides, on the other hand, the peristome that communicates with upside space 36 is adjacent to configuration to its air outlet 40b with penetrating with being located on the dividing plate 35.In the air outlet 40b inside of said fans 40, the sorbing material 41 that begins that heater 42 is being set respectively successively and be used for adsorption moisture from the suction side.

Below, the approach of circulation of air when making the action of above-mentioned dehumidifier is described.Circulating pathway when carrying out indoor dehumidification is described earlier, at this moment, above-mentioned the 1st controllable register 38 is swung to regeneration with blow-off outlet 34 1 sides, open with blow-off outlet 32 thereby will dehumidify, and then with the 2nd controllable register 39 be configured to regeneration close with suction inlet 33, drive fan 40 afterwards.Immediately, room air flow in the lower side space 37 with suction inlet 31 from above-mentioned dehumidifying, is inhaled into the air suction inlet 40a of fan 40 again.And, the air that flow into fan 40 inside is by sorbing material 41, water adsorption become the air that has been dehumidified at this, after air outlet 40b flows out to 36 li in upside space, be released to indoor (shown in the solid line arrow) from dehumidifying with blow-off outlet 32 again.

Below, circulating pathway when carrying out above-mentioned dehumidifier regenerates is described, at this moment, above-mentioned the 1st controllable register 38 is swung to dehumidifying blow-off outlet 32 1 sides, open with blow-off outlet 34 thereby will regenerate, again the 2nd controllable register 39 is configured to regeneration is opened with suction inlet 33, drives heater 42 and fan 40 afterwards.Immediately, extraneous air flow in the lower side space 37 of housing 30 with suction inlet 33 from above-mentioned regeneration, is drawn in the fan 40 from air suction inlet 40a.And the air that flow into said fans 40 inside is by heater 42 heating, and these air that have been heated make moisture emit from sorbing material 41 also by sorbing material 41 thus, thereby with sorbing material 41 regeneration.At this moment, these moisture of above-mentioned absorption of air and become humidifying air enter in the upside space 36 from air outlet 40b, are released to outdoor (shown in dotted arrow) from regeneration with blow-off outlet 34.

In this dehumidifier,, thereby there is the problem that can not obtain stable dehumidifying effect continuously owing to the running that dehumidifies and regenerate is to be undertaken by the batch process that is formed by the controllable register conversion.And, if above-mentioned dehumidifier is arranged in the dwelling house, a whole side is embedded in the outer wall, thereby when handling behind, will carries out large-scale engineering owing to must be mounted to dehumidifier, the bigger problem of cost is arranged.

Also had dehumidifier shown in Figure 9 (spy opens flat 11-300146 number) as former humidity control device.As shown in Figure 9, this dehumidifier after by dehumidifying path 107 room air by fan 104 suctions being cooled off by a square tube road 103a of condenser 103 and with condenser 103, is emitted after the dehumidifying by the binding domain 102a of rotating adsorber rotor 102.In addition, the regeneration that is inhaled into by regeneration path 108 by the effect of fan 106 with air by heater 105 heating after, the regeneration zone 102b by adsorber rotor 102 is taken off moisture by the sorbing material of regeneration zone 102b.

Like this, the sorbing material that is reproduced moves to binding domain 102a side because of adsorber rotor 102 along the revolution of arrow A direction, again the room air adsorption moisture that passes through from dehumidifying path 107.In addition, by passing through, moisture is taken off and be cooled, make to be contained in the hydrogenesis in many humid air and to be stored in the container 110 by the opposing party's path 103b of many humid air of humidification by condenser 103 by sorbing material from above-mentioned adsorber rotor 102.

Owing to be provided with the fan 104 of dehumidifying path 107 usefulness and the fan 106 of regeneration path 108 usefulness in the above-mentioned dehumidifier, thereby have structure complicated, can not miniaturization, can not weight reduction, the more high shortcoming of cost.Especially wall-hanging dehumidifier, under heavier, the larger-size occasion of weight, the work that is installed on the wall is just difficult.

Summary of the invention

The utility model is made in order to solve the above-mentioned existing problem of humidity control device in the past, its objective is that providing a kind of can easily install, and can obtain the humidity control device of stable damping ability continuously, also provide a kind of simple in structure, can miniaturization, lightweight and humidity control device that humidity control device that cost reduces and local space are used.

Therefore, humidity control device of the present utility model is characterised in that, possess: will be from indoor inhaled air to indoor the 1st damping path that constitutes with blowing out, will be from indoor inhaled air to outdoor the 2nd damping path that constitutes with blowing out, be used to make the wind pushing mechanism of the circulation of air in above-mentioned each damping path, the adsorber rotor that moisture is carried to the air that flows through above-mentioned the 2nd damping path from the air that flows through above-mentioned the 1st damping path, and in above-mentioned the 2nd damping path, be arranged on the heating arrangements of above-mentioned adsorber rotor upstream side.

In having the humidity control device of said structure, the regeneration operating of running and adsorber rotor owing to can dehumidify continuously, the former adsorbs the moisture in the above-mentioned room air and the air that will dehumidify provides to indoor by adsorber rotor, the latter is adsorbed the moisture of above-mentioned adsorber rotor and is discharged to outdoorly by room air, thereby can obtain stable dehumidifying effect.

The humidity control device of one embodiment is characterised in that, above-mentioned wind pushing mechanism is arranged on the single fan of above-mentioned adsorber rotor upstream side, the outlet of said fans is divided into 2 parts, a side wherein is arranged on and indoor the 1st damping path one side that communicates, and the opposing party is arranged on and outdoor the 2nd damping path one side that communicates.

In the humidity control device of the foregoing description, by single fan being used for the wind pushing mechanism that makes the circulation of air in above-mentioned each damping path, thereby the cost of goods is reduced.

The humidity control device of one embodiment is characterised in that above-mentioned humidity control device is wall-hanging, is provided with blow vent with penetrating on wall, and is provided with the exhaust channel in the 2nd damping path with connecting this blow vent, air can be arranged to outdoor from above-mentioned exhaust channel.

In the humidity control device of the foregoing description, be that blow vent is arranged on the wall with penetrating, and be provided with exhaust channel with connecting this blow vent, outdoor air is discharged to herein.Therefore under the occasion that above-mentioned humidity control device is installed in the dwelling house, owing to need only blow vent is arranged on the wall with penetrating, thereby can easily installs.

The humidity control device of one embodiment is characterised in that, is provided with the Humidity Detection mechanism that can detect humidity, and the detection signal of exporting according to this Humidity Detection mechanism carries out the damping running.

In the humidity control device of the foregoing description, be to carry out the damping running according to detection signal by the output of Humidity Detection mechanism.Automatically carry out the damping running because its result can adapt to indoor environment ground, thereby do not carry out the damping running operation, and can save energy.

The humidity control device of one embodiment is characterised in that, above-mentioned wind pushing mechanism is the 1st fan and the 2nd fan that is configured on the 2nd damping path that is configured on the 1st damping path, on the one hand above-mentioned the 1st fan and heating arrangements are stopped, driving the 2nd fan ground on the other hand and control.

In the humidity control device of the foregoing description, on the one hand above-mentioned the 1st fan and heating arrangements are stopped, drive the 2nd fan ground on the other hand and control, therefore, can carry out and intactly to be discharged to outdoor ventilation running by above-mentioned the 2nd fan from indoor inhaled air.

Humidity control device of the present utility model is characterised in that, possess: as the adsorber rotor of sorbing material, by the binding domain of above-mentioned adsorber rotor, make from indoor inhaled air and get back to indoor dehumidifying path, by the regeneration zone of above-mentioned adsorber rotor, discharge exhaust channel from indoor inhaled air, be configured in the above-mentioned adsorber rotor of above-mentioned exhaust channel upstream side, will flow into the heating arrangements of air heat of the regeneration zone of above-mentioned adsorber rotor; Wind is delivered to 1 fan of above-mentioned dehumidifying path and exhaust channel.

If adopt humidity control device with said structure, for example, 1 fan by the binding domain downstream that is configured in above-mentioned adsorber rotor, binding domain by above-mentioned adsorber rotor sucks room air, be blown out to the part of the room air that sucks indoor, on the other hand, after the remainder heating of heating arrangements, be blown into the regeneration zone of adsorber rotor with the room air of suction.Perhaps, 1 fan by the upstream side of binding domain that is configured in above-mentioned adsorber rotor and regeneration zone sucks room air, the part of the room air that sucks is blown out to the binding domain of adsorber rotor, and get back to indoor, on the other hand, after of the remainder heating of above-mentioned heating arrangements, be blown into the regeneration zone of adsorber rotor with the room air of suction.Thus, the water adsorption that makes room air in the air supply chamber that dehumidified, on the other hand, is taken off and is made air wetting being adsorbed on moisture on the adsorber rotor on the sorbing material of the binding domain of adsorber rotor, and the air that humidification is crossed is handled.For example, carry out draining after the airborne condensate moisture that humidification is crossed by condenser, perhaps the air that humidification is crossed is discharged to outdoor.And, by making above-mentioned adsorber rotor revolution, sorbing material is moved on to regeneration zone from binding domain, carry out the regeneration of sorbing material, the sorbing material through regenerating moves on to binding domain from regeneration zone again, and absorption and dehydration are carried out repeatedly.Therefore, compare, can make its miniaturization with the structure that at above-mentioned dehumidifying path and exhaust channel fan is set respectively, lightweight, and can reduce cost.

The humidity control device of one embodiment is characterised in that above-mentioned exhaust channel is the regeneration zone by above-mentioned adsorber rotor, being discharged to outdoor from indoor inhaled air.

Humidity control device according to the foregoing description, the moisture of above-mentioned adsorber rotor absorption is taken off and be discharged to outdoorly by the air of humidification by above-mentioned exhaust channel, thereby do not need container, also needn't carry out drainage works, and the problem of not leaking, can prevent the generation of leaking.In addition, owing to do not have discharging hose, thereby the free degree that is provided with is bigger.Again because be the simple structure that does not have condenser and groove cylinder, so can further reduce cost.

The humidity control device of one embodiment is characterised in that to possess: will store the container by the water of above-mentioned condenser condenses by the condenser condensing in addition of the moisture in the air behind the regeneration zone of above-mentioned adsorber rotor.

Humidity control device according to present embodiment, owing to be to make by above-mentioned condenser the moisture of above-mentioned adsorber rotor absorption to be taken off and by the condensate moisture in many humid air of humidification, and above-mentioned condensed water is stored in the said vesse, thereby can easily handle the moisture that those are removed from room air through dehumidifying, remove by condenser from the airborne most of moisture that exhaust channel is discharged, even so it is indoor that air is got back to, humidity is improved significantly.

The humidity control device of one embodiment is characterised in that to possess: will be by the condenser condensing and to carried out the discharging hose of draining by the water of above-mentioned condenser condenses in addition of the moisture in the air behind the regeneration zone of above-mentioned adsorber rotor.

Humidity control device according to the foregoing description, owing to be the moisture of above-mentioned adsorber rotor absorption is taken off and by the condensate moisture in many humid air of humidification by above-mentioned condenser, discharge this condensed water by above-mentioned discharging hose, thereby can easily handle the moisture of from room air, removing through dehumidifying, remove by condenser from the airborne most of moisture that exhaust channel is discharged, even so it is indoor that air is got back to, humidity is improved significantly.

The humidity control device that local space of the present utility model is used is characterised in that to have the structure of above-mentioned any one humidity control device, and be arranged in the local space.

If the humidity control device that adopts above-mentioned local space to use, do not take the bigger humidity control device of just can this is small-sized, lightweight local space using in the place that is provided with and be arranged on dressing room, closet, geta case, the place of changing one's clothes and lavatory etc. and need most in the local space of dehumidifying, can narrow and small local space be dehumidified effectively.

Description of drawings

Fig. 1 is the cross-sectional side view of the humidity control device of the utility model the 1st embodiment.

Fig. 2 is the cross-sectional side view of modification of the humidity control device of above-mentioned the 1st embodiment of expression.

Fig. 3 A is the cross-sectional side view of the humidity control device of the utility model the 2nd embodiment, and Fig. 3 B is the air flow diagram of expression by adsorber rotor.

Fig. 4 is the cross-sectional side view of former humidity control device.

Fig. 5 is the structural representation as the wall-hanging dehumidifier of the humidity control device of the utility model the 3rd embodiment.

Fig. 6 is the structural representation as the wall-hanging dehumidifier of the humidity control device of the utility model the 4th embodiment.

Fig. 7 A, Fig. 7 B are the oblique views that is used for the passage in the above-mentioned dehumidifier.

Fig. 8 is the structural representation as the wall-hanging dehumidifier of the humidity control device of the utility model the 5th embodiment.

Fig. 9 is the structural representation as the dehumidifier of former humidity control device.

The specific embodiment

Below, the humidity control device specific embodiment of humidity control device of the present utility model and local space being used with reference to accompanying drawing is described in detail.

The 1st embodiment

Fig. 1 is the cross-sectional side view of the humidity control device structure of the utility model the 1st embodiment.

Among Fig. 1, the humidity control device of present embodiment is that a side of the body housing 2 of quadrate roughly is installed in wall-hanging humidity control device 1 on the indoor side surface of outer wall 15, and the dehumidifying that is formed for sucking room air in the top of body housing 2 side is with suction inlet 11.In the front face side of above-mentioned body housing 2, at an upper portion thereof and at a lower portion thereof form respectively on the position dehumidifying with blow-off outlet 12 and regeneration with suction inlet 13, the former is used to blow out the adjusting air, the latter is used to suck room air.On the back side of above-mentioned body housing 2 side-lower and the outer wall 15 that is adjacent, be provided with to break-through and the outdoor passage that communicates 14 (for example diameter is about the circular hole of 60mm), and connect these passage 14 ground and be provided with regeneration as exhaust channel with blowing out passage 9.

In above-mentioned body housing 2, be provided with under the state of setting around the rotating discoid adsorber rotor 3 of trunnion axis, and an end face being arranged to make it across above-mentioned dehumidifying with blow-off outlet 12 and regeneration with suction inlet 13 ground and they facing to.Above-mentioned adsorber rotor 3 is to form for example sorbing materials such as silica gel, zeolite, aluminium oxide cellular-shaped or porous graininess and constituting, and makes on the other hand, moisture to be released in the warmed-up air from the air adsorption moisture of circulation.

Be partitioned into 2 spaces 17,18 than adsorber rotor 3 forward side space segments along the vertical direction by dividing plate 16 in the above-mentioned body housing 2, dividing plate 16 roughly becomes configuration flatly with respect to the bottom surface, upside space 17 wherein is connected with blow-off outlet 12 with dehumidifying, on the other hand, lower side space 18 is connected with suction inlet 13 with regeneration.Also be provided with heater 4 as heating arrangements in the front side of the adsorber rotor 3 of above-mentioned lower side space 18.Be provided with dehumidifying fan 5 and regeneration fan 6 on the rear side of the adsorber rotor 3 in above-mentioned body housing 2, the upper-lower position respectively abreast at it, the dehumidifying that is configured in above-mentioned upper side is connected with passage 7 with dehumidifying with the outlet 5b of fan 5, and dehumidifying is connected with adsorber rotor 3 with passage 7, on the other hand, dehumidifying be configured to the suction inlet 5a of fan 5 and usefulness suction inlet 11 1 sides that dehumidify adjoining.And, the above-mentioned regeneration that is configured in lower side is connected with blowing out passage 9 with above-mentioned regeneration with the outlet 6b of fan 6, and passage 9 communicates with outdoor, on the other hand, regeneration is connected with suction passage 8 with regeneration with the suction inlet 6b of fan 6, and passage 8 communicates with adsorber rotor 3.

Constitute dehumidifying approach (the 1st damping path) by such path, promptly, from above-mentioned dehumidifying with suction inlet 11, by dehumidifying with fan 5, dehumidifying with passage 7, adsorber rotor 3, upside space 17, until dehumidifying blow-off outlet 12, on the other hand, constitute regeneration path (the 2nd damping path) by such path, promptly, from above-mentioned regeneration with suction inlet 13, by lower side space 18, adsorber rotor 3, regeneration with suction passage 8, regenerate with fan 6, until regenerating with blowing out passage 9.

Below, the circulating pathway that above-mentioned humidity control device 1 is made its air as dehumidifier is described in when action.In above-mentioned dehumidifier, the regeneration of indoor dehumidification and adsorber rotor 3 is carried out simultaneously.At this moment dehumidifying approach among explanation Fig. 1, drives under the state that makes above-mentioned adsorber rotor 3 runnings and dehumidifies with fan 5 earlier.Immediately, room air flows in the body housings 2 from above-mentioned dehumidifying suction inlet 11, absorbs air from above-mentioned dehumidifying with the suction inlet 5a of fan 5 again, flow into dehumidifying with in the passage 7 from its outlet 5b.Flow in the adsorber rotor 3 by the air of above-mentioned dehumidifying, water adsorption after by dehumidifying, is emitted to indoor with blow-off outlet 12 from dehumidifying by above-mentioned upside space 17 again at this with passage 7.

On the other hand, above-mentioned regeneration path is described, at this moment before this under the state that makes 4 runnings of adsorber rotor 3 and heater, drives above-mentioned regeneration with fan 6.Immediately, room air just flow in the lower side space 18 of body housing 2 with being blown into mouthfuls 13 from above-mentioned regeneration, at this, by heater 4 with above-mentioned air heat.After this, the above-mentioned air that has been heated flows in the adsorber rotor 3, and moisture is emitted from adsorber rotor 3 thus, makes adsorber rotor 3 regeneration.At this moment, above-mentioned this moisture of heating absorption of air and become humidifying air, from adsorber rotor 3 by regeneration with suction passage 8, the suction inlet 6a with fan 6 absorbs from regeneration.And emit to outdoor with blowing out passage 9 by regeneration with the above-mentioned humidifying air of the outlet 6b outflow of fan 6 from above-mentioned regeneration.

Like this, be transported to regeneration path one side with adsorber rotor 3 flowing through the moisture that adsorbs in the air of dehumidifying approach, the running that can dehumidify thus is fed to the air that has dehumidified indoor.And meanwhile, the air that flows through above-mentioned regeneration path the moisture absorption of the adsorber rotor 3 that turns over after, emit to outdoor, can carry out the regeneration of above-mentioned adsorber rotor 3 thus.

Above-mentioned humidity control device 1 is made under the occasion of its action as air interchanger, and will dehumidify stops with fan 5 and heater 4, and regeneration is driven with fan 6.Immediately, by above-mentioned regeneration with fan 6, from regeneration room air is absorbed in the lower side space 18 of body housing 2 with suction inlet 13, use suction passage 8 and regeneration with fan 6 by the heater 4, adsorber rotor 3, the regeneration that are stopping, intactly be discharged to outdoor with blowing out passage 9 from regeneration.Its result can be intactly be discharged to the running of taking a breath from indoor inhaled air outdoorly.

Like this, if adopt the 1st embodiment of above-mentioned humidity control device 1, because airborne moisture in adsorber rotor 3 absorption chambers, running therefrom dehumidifies, with in the air supply chamber that has dehumidified the time, can carry out continuously absorbing and be discharged to behind the moisture of adsorber rotor 3 outdoor and the regeneration operating adsorber rotor 3 that forms, thereby can obtain stable dehumidifying effect by room air.Again because the structure of present embodiment is that passage 14 is arranged on the wall with penetrating, and connect these passage 14 ground be provided with regeneration with blowing out passage 9, and thus air is discharged to outdoor, even so be contained in after with above-mentioned humidity control device under the occasion in the dwelling house, as long as passage 14 is arranged on the wall with penetrating just passable, can easily carry out installation exercise.

Fig. 2 represents the change example of above-mentioned humidity control device 1 the 1st embodiment.This change example is compared with above-mentioned the 1st embodiment, and the difference of structure is: on the position beyond the rear side of above-mentioned humidity control device passage 14 is set with penetrating, connects this passage ground and will regenerate with blowing out passage 9 prolongation ground settings.Therefore, structure division the reference marks that all mark identical identical with the structure division of above-mentioned the 1st embodiment, and omit its explanation.Because the action of above-mentioned humidity control device 1 is also same with above-mentioned the 1st embodiment, thereby also omits its explanation.

As mentioned above, if adopt the change example of above-mentioned humidity control device 1, then as long as above-mentioned regeneration is provided with blowing out passage 9 prolongation ground, the passage 14 that just can will be arranged on the outer wall 15 is arranged on the rear side position in addition of humidity control device 1 with penetrating.

The 2nd embodiment

Fig. 3 A, Fig. 3 B represent the 2nd embodiment of above-mentioned humidity control device 1.Fig. 3 A is the cross-sectional side view of above-mentioned humidity control device 1.This embodiment compares with above-mentioned the 1st embodiment, and the difference of structure is: with a desk fan 20 air is circulated in dehumidifying approach and regeneration path.Promptly, the humidity control device 1 among the 2nd embodiment is provided with single fan 20 at the upstream side of above-mentioned adsorber rotor 3, is arranged to the lower side space 18 of crossing over upside space 17 and being provided with heater 4 by the other end of above-mentioned adsorber rotor 3, the passage 21 that will be connected with the outlet 20b of said fans 20.The difference of its structure also is: in the front of shell 2 side regeneration suction inlet 13 is set unlike the foregoing description 1, room air is absorbed from the suction inlet 23 that is arranged on body housing 2 top sides, in addition, also passage 22 is set with penetrating with connecting, makes its end be configured to directly link to each other in the face of landing with above-mentioned adsorber rotor 3 with the passage 14 that is arranged on the outer wall 15.Wherein, the structure division identical with the structure division of above-mentioned the 1st embodiment be the identical reference marks of mark all, and omits its explanation.

Below, the circulation path of air when humidity control device 1 with the 2nd embodiment shown in above-mentioned Fig. 3 A makes its action as dehydrating unit is described.Fig. 3 B is the schematic diagram that the air stream of adsorber rotor 3 is flow through in expression.Dehumidifying approach among Fig. 3 A is described earlier, at this moment, under the state that makes above-mentioned adsorber rotor 3 runnings, drive fan 20.Immediately, room air flows in the body housing 2 from above-mentioned suction inlet 23, again the suction inlet 20a of air from said fans 20 is absorbed, and flow in the passage 21 from outlet 20b.And airborne, the air that flow into the upper side of adsorber rotor 3 by this passage 21, dehumidified because of moisture is adsorbed at this, after this, emit to indoor with blow-off outlet 12 from dehumidifying by above-mentioned upside space.

Then, above-mentioned regeneration path is described, under the state that makes 4 runnings of above-mentioned adsorber rotor 3 and heater during drive fan 20, with above-mentioned situation similarly, room air is absorbed in the body housing 2 from suction inlet 23, again and in the flow channel 21 by said fans 20.And the air airborne, bottom one side that flow into adsorber rotor 3 by this passage 21 is preheated at this, flows in the adsorber rotor 3 after being set at heater 4 heating of 18 li of lower side space again again.Like this, by in the adsorber rotor 3, moisture is emitted from adsorber rotor 3, thereby make adsorber rotor 3 regeneration (with reference to Fig. 3 B) by the above-mentioned air that has been heated.At this moment, the above-mentioned hot-air that adds becomes humidifying air because of absorbing this moisture, and is interior and emit to outdoor with passage 22 by regeneration from above-mentioned adsorber rotor 3.

And, the humidity control device 1 among above-mentioned the 2nd embodiment is made under the occasion of its action as air interchanger, if under the state that above-mentioned heater 4 is stopped drive fan 20, then can carry out room air is discharged to outdoor ventilation running.

As mentioned above, if adopt the 2nd embodiment of above-mentioned humidity control device 1,, thereby the cost of goods is descended owing to the circulation of air that just can make with a fan 20 in above-mentioned dehumidifying approach and the regeneration path.

The 3rd embodiment

Fig. 5 is the structural representation as the wall-hanging dehumidifier of the humidity control device of the utility model the 3rd embodiment, and 51 are mounted in the shell on the indoor wall of wall 50; The 52nd, discoideus adsorber rotor, it be configured in the shell 51, axle is supported to can be flatly free rotating; The 53rd, turbofan, it is to be configured in the above-mentioned shell 51, by the binding domain 52a of above-mentioned adsorber rotor 52 room air to be sucked; The 54th, be configured in the heater between the regeneration zone 52b of above-mentioned turbofan 53 and adsorber rotor 52.Above-mentioned adsorber rotor 52 is for example sorbing materials such as silica gel, zeolite, aluminium oxide to be shaped be cellular or porous graininess, can be the center with the axle of circular plate shape, make its revolution by the motor of not representing among the figure.

In above-mentioned dehumidifier, form dehumidifying path 55, be used for by adsorber rotor 52 binding domain 52a and turbofan 53, make and get back to indoor from indoor inhaled air.In dehumidifier, also form exhaust channel 56, be used for by adsorber rotor 52 regeneration zone 52b, the air that blows out from above-mentioned turbofan 53 is discharged.And, disposing condenser 57 at the upstream side of the adsorber rotor 52 of above-mentioned dehumidifying path 55 and in the downstream of the adsorber rotor 52 of exhaust channel 56, disposing container 58 at the downside of this condenser 57, be used to store the condensed water that drips from condenser 57.

In having the dehumidifier of said structure, the room air that is sucked by turbofan 53 is by after the condenser 57, dehumidified by the binding domain 52a of adsorber rotor 52, blow out and return indoor from a side's of turbofan 53 blow-off outlet 53a through the part of air of dehumidifying.In addition, the remainder of the air that has been dehumidified by the binding domain 52a of above-mentioned adsorber rotor 52 blows out from the opposing party's of turbofan 53 blow-off outlet 53b, by heater 54 heating, this warmed-up air is fed to the regeneration zone 52b of adsorber rotor 52, moisture is taken off from the sorbing material of this regeneration zone 52b.Then, will take off the moisture of sorbing material and be discharged to indoor by condenser 57 by the air of humidification.By cooling off above-mentioned condenser 57 from indoor inhaled air, the moisture of the regeneration zone 52b of adsorber rotor 52 taken off and by moisture contained in many humid air of humidification by condenser 57 condensations, the condensed water that drips from condenser 57 is stored in 58 li in container.

Like this, in the dehumidifier of above-mentioned the 3rd embodiment, because with the turbofan 53 in the binding domain 52a downstream that is configured in adsorber rotor 52, room air is sucked by the binding domain 52a of adsorber rotor 52, and be blown out to indoorly, on the other hand, be blown into the regeneration zone 52b of adsorber rotor 52, be blown out to indoor via condenser 57, thereby compare with the sort of structure that fan is set at dehumidifying path and exhaust channel respectively, can make structure miniaturization, lightweight, can reduce cost.

Though be provided with container 58 in the above-mentioned dehumidifier, discharge by the also available discharging hose of the water of condenser 57 condensations.

The 4th embodiment

Fig. 6 is the structural representation as the wall-hanging dehumidifier of the humidity control device of the utility model the 4th embodiment, and 71 are mounted in the shell on the indoor wall of wall 70; The 72nd, the adsorber rotor of circular plate shape, it be configured in the shell 71, axle is supported to can be flatly free rotating; The 73rd, turbofan, it is to be configured in the above-mentioned shell 71, by the binding domain 72a of above-mentioned adsorber rotor 72 room air is sucked.Above-mentioned adsorber rotor 72 forms for example cellular or porous graininess with sorbing materials such as silica gel, zeolite, aluminium oxide, can be that middle heart is turned round by the motor that does not have expression among the figure, with the axle of circular plate shape.

In above-mentioned dehumidifier, form dehumidifying path 75, be used for binding domain 72a, turbofan 73 and make and get back to indoor from indoor inhaled air by adsorber rotor 72; In above-mentioned dehumidifier, also form exhaust channel 76, be used for by adsorber rotor 72 regeneration zone 72b, make the air that blows out from above-mentioned turbofan 73 be discharged to outdoor.Between the regeneration zone 72b of the turbofan 73 of above-mentioned exhaust channel 76 and adsorber rotor 72, disposing heater 74 with air heat.

In having the dehumidifier of said structure, after room air is dehumidified by the binding domain 72b of adsorber rotor 72, be inhaled into 73 li of turbofan, the above-mentioned part of air that has been dehumidified is indoor from returning after a side's of turbofan 73 blow-off outlet 73a blows out.On the other hand, the remainder of the air through having dehumidified blows out and is heated by heater 74 from the opposing party's of turbofan 73 blow-off outlet 73b, these air that have been heated are fed to the regeneration zone 72b of adsorber rotor 72, from the sorbing material of regeneration zone 72b moisture is taken off, then, by exhaust channel 76, owing to make moisture in the sorbing material take off and be discharged to outdoor by many humid air of humidification.

Like this, in the dehumidifier of above-mentioned the 4th embodiment, because a turbofan 73 with the binding domain 72b downstream that is configured in adsorber rotor 72 just can suck room air by the binding domain 72a of adsorber rotor 72, and be blown out to indoorly, on the other hand, be blown into the regeneration zone 72b of adsorber rotor 72, and be discharged to outdoor, thereby with dehumidifying path and exhaust channel on fan is set respectively structure compare, can make structure miniaturization and lightweight, can reduce cost.

Fig. 7 A represents to be used for the structure of the bushing type passage 80 of above-mentioned dehumidifier exhaust, and Fig. 7 B represents to be used for the structure of the ductway arranged side by side 83 of above-mentioned dehumidifier exhaust.Above-mentioned passage 80,83 all is to connect wall 70 ground configuration shown in Figure 6.

Passage 80 shown in Fig. 7 A is made sleeve structure, it has outer tube cylindraceous 81 and inserts to lead in cylindric this outer tube 81 in and manage 82, in form a part of exhaust channel 76 in the pipe 82, between the outer peripheral face of the inner peripheral surface of outer tube 81 and interior pipe 82, form the air suction way that sucks outside air.The interior pipe 82 of above-mentioned passage 80 as the part of exhaust channel, will be discharged to outdoor by the many humid air after the regeneration zone 72b of adsorber rotor 72, on the other hand, by the air suction way that between the outer peripheral face of the inner peripheral surface of the outer tube 81 of passage 80 and interior pipe 82, forms outdoor air is directed into indoorly, can take a breath thus.

Passage 83 shown in Fig. 7 B is made tubular construction arranged side by side, has the spacer portion 83a that section is divided into 2 parts, and a side's of passage 83 path is the part of exhaust channel 76, and the opposing party's path of passage 83 is the air suction ways that are used for the outside air suction.The part of a square tube road of above-mentioned passage 83 as exhaust channel 76, to be discharged to outdoor by the many humid air after the regeneration zone 72b of adsorber rotor 72, on the other hand, by air suction way outdoor air is directed into indoorly, can take a breath thus as passage 83 the opposing party's path.

Especially in the higher house of air-tightness, only be provided with under the occasion of exhaust channel of many humid air, exhaust is difficulty, can influence dehumidification function, but by with above-mentioned passage 80,83 air suction way being set, just can easily carry out the exhaust of many humid air.

The 5th embodiment

Fig. 8 is the structural representation as the wall-hanging dehumidifier of the humidity control device of the utility model the 5th embodiment.91 are mounted in the shell on the indoor wall of wall 90; The 92nd, discoideus adsorber rotor, it is to be configured in the above-mentioned shell 91, axle is supported to can be flatly free rotating; The 93rd, turbofan, it is to be configured in the above-mentioned shell 91, and room air is blown into respectively in the binding domain 92a of above-mentioned adsorber rotor 92 and the regeneration zone 92b.Above-mentioned adsorber rotor 92 is that sorbing materials such as silica gel, zeolite, aluminium oxide are formed for example cellular or porous graininess, can be by the motor that does not have expression among the figure, its axle with circular plate shape is turned round for middle heart.

In above-mentioned dehumidifier, form dehumidifying path 95, be used to make and get back to indoor from indoor inhaled air via the binding domain 92a of adsorber rotor 92 by turbofan 93.Also form exhaust channel 96 in this dehumidifier, the air that is used for blowing out from above-mentioned turbofan 93 is discharged to outdoor via the regeneration zone 92b of adsorber rotor 92.Between the regeneration zone 92b of the turbofan 93 of above-mentioned exhaust channel 96 and adsorber rotor 92, disposing heater 94 with air heat.

In having the dehumidifier of said structure, the part of the room air that is sucked by turbofan 93 blows out from a side's of turbofan 93 blow-off outlet 93a, after the binding domain 92a by adsorber rotor 92 is dehumidified, is blown out to indoor again.The room air remainder that is sucked by above-mentioned turbofan 93 then blows out from the opposing party's of turbofan 93 blow-off outlet 93b, by heater 94 heating, this warmed-up air is fed to the regeneration zone 92b of adsorber rotor 92, the moisture in the sorbing material of regeneration zone 92b is taken off.Then, by exhaust channel 96, this is taken off the moisture of sorbing material and is discharged to outdoor by the air of humidification.

The exhaust of above-mentioned dehumidifier be with the 4th embodiment in dehumidifier similarly adopt any one party in the passage 80,83 shown in Fig. 7 A, Fig. 7 B.

The dehumidifier of above-mentioned the 5th embodiment has the effect same with the dehumidifier of the 4th embodiment.

The 6th embodiment

The humidity control device that the local space of the utility model the 6th embodiment is used has the structure same with the dehumidifier of above-mentioned the 3rd～the 5th embodiment.Be arranged on dressing room, closet, geta case, in change one's clothes place and the local spaces such as lavatory, do not take the bigger place that is provided with and just can narrow and small local space be dehumidified by the humidity control device that this local space is used.And, under the occasion of discharging many humid air without condenser, can be not limited to outdoorly, many humid air are discharged to the space of taking a breath with the room of above-mentioned local space adjacency or corridor etc.

Among above-mentioned the 3rd～the 5th embodiment wall-hanging dehumidifier as humidity control device is illustrated, but the utility model is also applicable to humidity control devices such as vertical dehumidifiers.

What use among above-mentioned the 3rd～the 5th embodiment is turbofan 53,73,93, but also can use any one fans such as multi blade fan, centrifugal fan, tube-axial fan or cross flow fan, also can use 1 fan that supply air system is divided into 2 parts.

Be explanation above, but the utility model is not limited to the foregoing description, can carries out all changes ground in scope of the present utility model and be implemented specific embodiment of the utility model.Promptly, in the present embodiment, heating arrangements is to use heater, but, even utilize the heating source of heat pump formula, also can similarly implement with above-mentioned.In addition, also can make the humidity sensor that can detect humidity is set on above-mentioned humidity control device,, automatically carry out the dehumidifying running and the ventilation running that adapt with indoor environment according to the signal of this humidity sensor output.

Claims (10)

1. humidity control device is characterized in that possessing:

Will be from indoor inhaled air to indoor the 1st damping path that constitutes with blowing out,

Will be from indoor inhaled air to outdoor the 2nd damping path that constitutes with blowing out,

With the wind pushing mechanism of the circulation of air in above-mentioned each damping path,

The adsorber rotor (3) that moisture is carried to the air that flows through above-mentioned the 2nd damping path from the air that flows through above-mentioned the 1st damping path,

In above-mentioned the 2nd damping path, be arranged on the heating arrangements (4) of above-mentioned adsorber rotor (3) upstream side.

2. humidity control device as claimed in claim 1, it is characterized in that, above-mentioned wind pushing mechanism is arranged on the single fan (20) of above-mentioned adsorber rotor (3) upstream side, the outlet of said fans (20) is divided into 2 parts, a side wherein is arranged on and indoor the 1st damping path one side that communicates, and the opposing party is arranged on and outdoor the 2nd damping path one side that communicates.

3. humidity control device as claimed in claim 1 or 2, it is characterized in that, above-mentioned humidity control device is wall-hanging, be provided with blow vent (14) with on wall, penetrating, and connect the exhaust channel (9) that this blow vent is provided with the 2nd damping path (14), air is arranged to outdoor from above-mentioned exhaust channel (9).

4. as each described humidity control device in the claim 1～3, it is characterized in that, be provided with the Humidity Detection mechanism that can detect humidity, the detection signal of exporting according to this Humidity Detection mechanism carries out the damping running.

5. as each described humidity control device in the claim 1,3,4, it is characterized in that, above-mentioned wind pushing mechanism is to be configured in the 1st fan (5) on the 1st damping path and to be configured in the 2nd fan (6) on the 2nd damping path, on the one hand above-mentioned the 1st fan (5) and heating arrangements (4) are stopped, driving the 2nd fan on the other hand and control (6).

6. humidity control device is characterized in that possessing:

As the adsorber rotor (52,72,92) of sorbing material,

By the binding domain (52a, 72a, 92a) of above-mentioned adsorber rotor (52,72,92), will get back to indoor dehumidifying path (55,75,95) from indoor inhaled air,

By the regeneration zone (52b, 72b, 92b) of above-mentioned adsorber rotor (52,72,92), discharge exhaust channel (56,76,96) from indoor inhaled air,

Be configured in the above-mentioned adsorber rotor (52,72,92) of above-mentioned exhaust channel (56,76,96) upstream side, will flow into the heating arrangements (54,74,94) of air heat of the regeneration zone (52b, 72b, 92b) of above-mentioned adsorber rotor (52,72,92), wind is delivered to 1 fan (53,73,93) of above-mentioned dehumidifying path (55,75,95) and exhaust channel (56,76,96).

7. humidity control device as claimed in claim 6 is characterized in that, above-mentioned exhaust channel (56,76,96) is that the regeneration zone (52b, 72b, 92b) by above-mentioned adsorber rotor (52,72,92) will be discharged to outdoor from indoor air.

8. humidity control device as claimed in claim 6 is characterized in that possessing:

Will be by the condenser condensing (57) in addition of the moisture in the air behind the regeneration zone (52b) of above-mentioned adsorber rotor (52),

Storage is by the container (58) of the water of above-mentioned condenser (57) condensation.

9. humidity control device as claimed in claim 6 is characterized in that possessing:

Will be by the condenser condensing (57) in addition of the moisture in the air behind the regeneration zone (52b, 72b, 92b) of above-mentioned adsorber rotor (52),

The discharging hose that water by above-mentioned condenser (57) condensation is carried out draining.

10. the humidity control device that local space is used is characterized in that, has the structure of each described humidity control device in the aforesaid right requirement 6～9, and is arranged in the local space.

Images